CN210197434U - Independent temperature control geothermal floor - Google Patents

Abstract

The utility model discloses an independent temperature control geothermal floor, which comprises a base plate, wherein a panel is arranged above the base plate; the base plate comprises a plate body, wherein a wire groove is formed in the upper surface of the plate body, and a placement groove matched with the wire groove is further formed in the upper surface of the plate body; a heating cable is arranged in the wire slot, and a temperature control switch connected with the heating cable is arranged in the placing groove. The utility model has the characteristics of can effectively reduce fire control potential safety hazard and reduce the energy consumption.

Description

Independent temperature control geothermal floor

Technical Field

The utility model relates to a geothermal floor, especially a geothermal floor of independent accuse temperature.

Background

The geothermal floor is heated by floor radiation, the temperature is radiated from the ground to the top and is decreased from bottom to top; conventional geothermal floors include water-heated floors and electric-heated floors. The conventional floor heating floor generally means that a heating cable is arranged in a substrate, and is connected with an external connection line through the heating cable to heat through electricity. However, after the floor heating floor is laid, some areas of the surface of the floor heating floor are covered by some objects, such as blankets and furniture, so that the temperature rise speed of the area is faster than that of other areas, and the temperature of the whole floor heating floor area is generally controlled by externally arranging a general temperature control switch in the existing floor heating floor, that is, the temperature control switch can start to work only when the temperature of the whole area reaches a set value, so that the temperature of certain specific areas is higher, a fire disaster is easily caused, certain safety hazards exist, and energy consumption is correspondingly increased. Therefore, the prior art has certain fire safety hidden danger and the problem of large energy consumption.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an independent accuse temperature's geothermal floor. The utility model has the characteristics of can effectively reduce fire control potential safety hazard and reduce the energy consumption.

The technical scheme of the utility model: an independent temperature control geothermal floor comprises a substrate, wherein a panel is arranged above the substrate; the base plate comprises a plate body, wherein a wire groove is formed in the upper surface of the plate body, and a placement groove matched with the wire groove is further formed in the upper surface of the plate body; a heating cable is arranged in the wire slot, and a temperature control switch connected with the heating cable is arranged in the placing groove.

In the above independent temperature control geothermal floor, the upper surface of the plate body is provided with a mounting groove located in the middle and/or end of the wire casing.

In the independent temperature control geothermal floor, the placing groove comprises a rectangular groove body, and an opening communicated with the wire groove is formed in the side end of the groove body.

In the independent temperature control geothermal floor, two groups of first arc-shaped adjusting plate groups and second arc-shaped adjusting plate groups which are symmetrically distributed are arranged in the opening.

In the independent temperature control geothermal floor, the upper ends of the two symmetrical side walls of the groove body are provided with the limiting blocks, and the top of one end of the groove body is provided with the stop plate.

In the independent temperature control geothermal floor, the two ends of the wire groove are provided with end socket placing openings, and the end socket placing openings are internally provided with the connector lugs connected with the heating cables; and cable length adjusting components are further arranged at the two ends of the wire slot.

In the above geothermal floor with independent temperature control, the heating cable comprises a first heating cable and a second heating cable; the temperature control switch is provided with two connecting wires, the two connecting wires are respectively connected with one ends of the first heating cable and the second heating cable, and the other ends of the first heating cable and the second heating cable are respectively connected with the corresponding connector lugs.

Compared with the prior art, the utility model discloses a set up wire casing and mounting groove on the plate body, through set up temperature control switch in the mounting groove, set up the heating cable who links to each other with temperature control switch in the wire casing, realize carrying out the purpose of accuse temperature alone to each geothermal floor, the single plate will automatic shutdown heating work after reacing the temperature of settlement promptly, guarantee that every plate is all in the safe temperature range of settlement, thereby can effectual reduction fire control potential safety hazard, also can reduce the energy consumption to a certain extent. In addition, the first arc-shaped adjusting plate group and the second arc-shaped adjusting plate group which are symmetrically distributed are arranged in the opening, so that the length of the connecting wire of the temperature control switch can be effectively adjusted, and the connecting wire and the heating cable can be tightly attached in the corresponding placing groove and the corresponding wire groove; meanwhile, the limiting block and the stop plate are arranged in the groove body, so that the stability and firmness of the installation of the temperature control switch are ensured. To sum up, the utility model has the characteristics of can effectively reduce fire control potential safety hazard and reduce the energy consumption.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of a substrate;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic view of a substrate structure with the heating cable omitted;

FIG. 5 is an enlarged view of a portion of FIG. 4;

fig. 6 is a schematic view of the structure of the mounting slot.

The labels in the figures are: the heating cable comprises a base plate 1, a panel 2, a plate body 3, a wire groove 4, a placing groove 5, a first heating cable 6, a temperature control switch 7, a cable length adjusting component 8, a second heating cable 9, an end placing opening 401, a connector lug 402, a groove body 501, an opening 502, an arc adjusting plate 503, a first arc adjusting plate group 504, a second arc adjusting plate group 505, a limiting block 506, a stop plate 701 and a connecting line.

Detailed Description

The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.

Examples are given. An independent temperature control geothermal floor is shown in figures 1 to 6 and comprises a substrate 1, wherein a panel 2 is arranged above the substrate 1; the base plate 1 comprises a plate body 3, a wire groove 4 is formed in the upper surface of the plate body 3, and a placement groove 5 matched with the wire groove 4 is further formed in the upper surface of the plate body 3; a heating cable is arranged in the wire slot 4, and a temperature control switch 7 connected with the heating cable is arranged in the placing slot 5.

The upper surface of the plate body 3 is provided with a placing groove 5 positioned in the middle and/or the end of the wire casing 4.

The mounting groove 5 comprises a rectangular groove body 501, and an opening 502 communicated with the wire groove 4 is formed at the side end of the groove body 501.

Two groups of first arc-shaped adjusting plate groups 503 and second arc-shaped adjusting plate groups 504 which are symmetrically distributed are arranged in the opening 502.

The upper ends of the two symmetrical side walls of the tank body 501 are provided with limit blocks 505, and the top of one end of the tank body 501 is provided with a stop plate 506.

End socket placing openings 401 are formed in two ends of the wire groove 4, and connector lugs 402 connected with heating cables are arranged in the end socket placing openings 401; and cable length adjusting components 8 are further arranged at two ends of the wire slot 4.

The heating cable comprises a first heating cable 6 and a second heating cable 9; two connecting wires 701 are arranged on the temperature control switch 7, the two connecting wires 701 are respectively connected with one ends of the first heating cable 6 and the second heating cable 9, and the other ends of the first heating cable 6 and the second heating cable 9 are respectively connected with the corresponding connector lugs 402.

The wire grooves comprise a left wire groove and a right wire groove which are positioned on the upper surface of the plate body, and a middle wire groove is arranged between the left wire groove and the right wire groove; the left wire groove comprises a left groove body, and a left connecting groove is formed in the side face of the lower end of the left groove body; the right wire casing includes right cell body, and the side of right cell body upper end is equipped with right spread groove, and the wrapping post is located the lower extreme of right cell body.

The cable length adjusting assembly comprises a plurality of winding posts which are positioned in the wire grooves and vertically arranged, and a winding groove is formed between every two adjacent winding posts; the wrapping post is of an arc-shaped structure.

The placing groove is filled with glue.

The heating cable is a carbon fiber heating cable.

The temperature control switch is a temperature controller using a bimetallic strip as a temperature sensing element, when an electric appliance normally works, the bimetallic strip is in a free state, a contact is in a closed/open state, when the temperature rises to an action temperature value, the bimetallic element is heated to generate internal stress to quickly act, the contact is opened/closed, and a circuit is cut off/switched on, so that the thermal protection effect is achieved. When the temperature is gradually reduced to the reset temperature, the contact is automatically closed/opened, and the normal working state is recovered.

The temperature control switch can be selected from temperature controllers suitable for various models of the product, the voltage is 210V-250V, the current is 2A-10A, and the set temperature is 20-60 ℃. When the temperature control switch detects that the temperature of the area exceeds the set value, the temperature control switch is disconnected, namely power supply is lost, and heating is stopped. When the temperature of the electric heating floor is reduced to a set temperature value, the temperature control switch is automatically electrified, and the geothermal floor starts to heat again.

For example, a KSD9700 temperature controller, available from keh corporation, at a voltage of 250V, a current of 5A, and a set temperature of 35 c may be selected. When the temperature control switch detects that the temperature of the area exceeds 35 ℃, the temperature control switch is disconnected, namely power supply is lost, and heating is stopped. When the geothermal floor is reduced to the set temperature value (30 ℃), the temperature control switch is automatically electrified, and the geothermal floor starts to heat again.

The utility model discloses a production process: firstly, a wire slot and a mounting slot are formed in a plate body, a temperature control switch is connected with a first heating cable and a second heating cable respectively, then the temperature control switch is placed in the mounting slot and limited by a limiting block and a stop plate, then the length of a connecting wire is adjusted by a first arc-shaped adjusting plate group and a second arc-shaped adjusting plate group, then the first heating cable and the second heating cable are placed in the corresponding wire slots respectively, and the heating cable and the temperature control switch are bonded and fixed by glue water respectively; and finally, gluing the panel above the base plate to obtain the geothermal floor.

Claims (7)

1. An independent temperature control geothermal floor is characterized in that: comprises a substrate (1), a panel (2) is arranged above the substrate (1); the base plate (1) comprises a plate body (3), wherein a wire groove (4) is formed in the upper surface of the plate body (3), and a placement groove (5) matched with the wire groove (4) is further formed in the upper surface of the plate body (3); a heating cable is arranged in the wire groove (4), and a temperature control switch (7) connected with the heating cable is arranged in the placing groove (5).

2. The independently temperature controlled geothermal floor according to claim 1, wherein: the upper surface of the plate body (3) is provided with a placing groove (5) positioned in the middle and/or the end of the wire groove (4).

3. An independently temperature controlled geothermal floor according to claim 2, wherein: the placing groove (5) comprises a rectangular groove body (501), and an opening (502) communicated with the wire groove (4) is formed in the side end of the groove body (501).

4. An independently temperature controlled geothermal floor according to claim 3, wherein: two groups of first arc-shaped adjusting plate groups (503) and second arc-shaped adjusting plate groups (504) which are symmetrically distributed are arranged in the opening (502).

5. An independently temperature controlled geothermal floor according to claim 3, wherein: the upper ends of two symmetrical side walls of the tank body (501) are provided with limit blocks (505), and the top of one end of the tank body (501) is provided with a stop plate (506).

6. The independently temperature controlled geothermal floor according to claim 1, wherein: end socket placing openings (401) are formed in two ends of the wire groove (4), and connector lugs (402) connected with heating cables are arranged in the end socket placing openings (401); and cable length adjusting components (8) are further arranged at the two ends of the wire slot (4).

7. An independently temperature controlled geothermal floor according to claim 6, wherein: the heating cable comprises a first heating cable (6) and a second heating cable (9); two connecting wires (701) are arranged on the temperature control switch (7), the two connecting wires (701) are respectively connected with one ends of the first heating cable (6) and the second heating cable (9), and the other ends of the first heating cable (6) and the second heating cable (9) are respectively connected with the corresponding connector lug (402).

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